Power delivery apparatus

What is claimed is: 1 . A power delivery (PD) apparatus, comprising: A primary-side input rectification circuit configured such that a current flows through a primary coil by alternately operating at least two switching elements, comprising at least one switch, according to a magnitude of a charging supply voltage to be obtained; a first driving circuit configured to output the charging supply voltage by an induced electromotive force due to a current flowing through the primary coil; and a second driving circuit configured to output an internal operating voltage by the induced electromotive force due to the current flowing through the primary coil, wherein the second driving circuit includes secondary coils having different winding directions and is configured such that a plurality of rectification circuits are coupled in a form stacked in series. 2 . The power delivery apparatus of claim 1 , wherein the plurality of rectification circuits have a single-ended structure. 3 . The power delivery apparatus of claim 1 , wherein the plurality of rectification circuits comprise: a first direction driving circuit including a secondary coil having a different winding direction from a secondary coil included in the first driving circuit, and a second direction driving circuit including a secondary coil having a same winding direction as the secondary coil included in the first driving circuit. 4 . The power delivery apparatus of claim 3 , wherein the second driving circuit comprises a third capacitor configured to be charged with a voltage corresponding to a sum of a voltage charged in the first capacitor included in the first direction driving circuit and a voltage charged in the second capacitor included in the second direction driving circuit. 5 . The power delivery apparatus of claim 4 , wherein the second driving circuit comprises a regulator, comprising circuitry, configured to output the voltage charged in the third capacitor to the internal operating voltage of a constant magnitude. 6 . The power delivery apparatus of claim 1 , further comprising: a controller, comprising circuitry, configured to: receive the internal operating voltage from the second driving circuit and output switching control signals to alternately operate the at least two switching elements included in the primary-side input rectification circuit. 7 . The power delivery apparatus of claim 6 , wherein the controller is configured to determine an operation duty ratio in proportion to a magnitude of the charging supply voltage and output switching control signals to adjust a turn-on time interval of each of the at least two switching elements based on the determined operation duty ratio. 8 . The power delivery apparatus of claim 7 , wherein the controller is configured to: increase the operation duty ratio based on the magnitude of the charging supply voltage increasing, and decrease the operation duty ratio based on the magnitude of the charging supply voltage decreasing. 9 . The power delivery apparatus of claim 1 , wherein the secondary coils have a same number of turns. 10 . The power delivery apparatus of claim 1 , wherein the plurality of rectification circuits are configured such that diodes and capacitors connected in a forward direction on a closed loop connecting both sides of the secondary coils are connected in series. 11 . A power delivery (PD) apparatus of a universal serial bus (USB), comprising: a flyback converter configured to use an input voltage to output a variable charging supply voltage within a specified range, and an operating voltage having a constant magnitude; and a flyback converter chip, comprising circuitry, configured to use the operating voltage to drive the flyback converter, wherein the flyback converter comprises a transformer including a primary coil and a plurality of secondary coils, and rectification circuits having a same structure electrically connected to each of the plurality of secondary coils; and wherein the flyback converters are configured such that voltages obtained in parallel by the two rectification circuits electrically connected to two secondary coils having the same number of turns and opposite winding directions, among the plurality of secondary coils, are added to be output as the operating voltage. 12 . The power delivery apparatus of claim 11 , wherein the two rectification circuits have a single-ended structure. 13 . The power delivery apparatus of claim 11 , wherein the two rectification circuits comprise: a second rectification circuit including a secondary coil having a winding direction opposite to a winding direction of a secondary coil to which a first rectification circuit configured to output the charging supply voltage among the rectification circuits is electrically connected; and a third rectification circuit including a secondary coil having a same winding direction as the winding direction of the secondary coil to which the first rectification circuit is electrically connected. 14 . The power delivery apparatus of claim 11 , further comprising: a third capacitor configured such that a voltage is charged with voltages obtained in parallel by the two rectification circuits. 15 . The power delivery apparatus of claim 14 , further comprising: a regulator configured to output the voltage charged in the third capacitor as the operating voltage having a constant magnitude. 16 . The power delivery apparatus of claim 11 , wherein the flyback converter chip is configured to output switching control signals to alternately operate at least two switching elements configured in the flyback converters to supply current to the primary coil, using the input voltage. 17 . The power delivery apparatus of claim 16 , wherein the flyback converter chip is configured to determine an operation duty ratio in proportion to a magnitude of the charging supply voltage and output the switching control signals to adjust a turn-on time interval of each of the at least two switching elements based on the determined operation duty ratio. 18 . The power delivery apparatus of claim 17 , wherein the flyback converter chip is configured to: increase the operation duty ratio based on the magnitude of the charging supply voltage increasing and decrease the operation duty ratio based on the magnitude of the charging supply voltage decreasing. 19 . The power delivery apparatus of claim 11 , wherein the secondary coils have a same number of turns. 20 . The power delivery apparatus of claim 11 , wherein the two rectification circuits are configured such that diodes and capacitors connected in a forward direction on a closed loop connecting both sides of the secondary coils are connected in series.